Dual stream structure digital television transmission and receiving method using hybrid of E-8VSB, E-4VSB and P2VSB

Abstract

Provided are a Vestigial Side Band (VSB) Digital Television (DTV) transmitter and receiver based on the Advanced Television System Committee (ATSC) A / 53, and a method thereof. The present invention provides 8-VSB DTV transmitter and receiver that can improve reception performance of the receiver by transmitting and receiving robust data mixed with P-2VSB, E-4VSB, and / or E-8VSB. The DTV transmitter includes an input means for receiving a digital video data stream including normal data and robust data; an encoding means for coding the digital video data stream into data symbols; and a transmitting means for modulating and transmitting an output signal of the encoding means, wherein the encoding means performs trellis coding on the robust data by sequentially applying a plurality of trellis coding methods.

Description

TECHNICAL FIELD[0001]The present invention relates to a Vestigial Side Band (VSB) digital television (DTV) transmitter and receiver based on terrestrial DTV Standards, which is A / 53 of the Advanced Television System Committee (ATSC), and a method thereof. More particularly, it relates to a DTV transmitter and receiver having a mixed double stream structure, and a method thereof.BACKGROUND ART[0002]The standards of the Advanced Television System Committee (ATSC) suggest to use a signal obtained by modulating 12 independent data streams, which are trellis encoded and time-multiplexed, into 10.76 MHz-rate 8-level Vestigial Side Band (VSB) symbol streams to transmit High Definition Television (HDTV) broadcasting through a terrestrial broadcasting channel. The frequency band of the signal is transformed into a frequency band of 6 MHz which corresponds to a standard Very High Frequency (VHF) or Ultrahigh Frequency (UHF) terrestrial television channel. Signals of the corresponding channel ...

AI Technical Summary

Benefits of technology

[0032]As described above, the present invention can reduce a signal-to-noise ratio (SNR) satisfying a Threshold of Visibility (TOV) by mixing robust data coded in P-2VSB, E-8VSB, and / or E-8VSB methods with normal data following the 8-VSB method and thus improving reception performance with respect to normal data as well as robust data.

[0033]Also, broadcasting stations can transmit robust data adaptively by coding robust data in an appropriate method based on a specific usage and required robustness.

Problems solved by technology

However, transmission signals of a conventional 8-VSB transceiver are distorted in indoor and mobile channel environments due to variable channel and multipath phenomena, and this degrades reception performance of the receiver.

In other words, transmitted data are affected by various channel distortion factors.

Since an equalizer of the receiver does not have a convergence speed fast enough to compensate for the distortion of receiving signals, which occurs by the change in multipath characteristics and the Doppler interference, the receiver cannot perform equalization precisely.

For this reason, the broadcasting program reception performance of 8-VSB DTV broadcast is lower than that of an analog broadcast and reception is impossible in a mobile receiver.

Even if reception is possible, there is a problem that a signal-to-noise ratio (SNR) satisfying Threshold of Visibility (TOV) increases.

Since the symbols to which robust data are mapped are limited in the conventional technology, there is a problem that the average power of the symbols corresponding to the robust data is increased compared to conventional 8-VSB method.

When signals are transmitted with a limited transmission power, which is true in most cases, the transmission power of normal data are relatively reduced compared to the conventional 8-VSB method and, thus, there is a problem that the normal data have poorer reception performance than the conventional 8-VSB method in the same channel environment.

Since the problem becomes more serious when the ratio of robust data mixed with normal data is increased, the SNR satisfying the TOV is increased.

Accordingly, the reception performance is degraded, even though the channel environment is fine and it is likely to happen that backward compatibility cannot be provided for an 8-VSB receiver.

However, since the free distance of a trellis encoder that determines the performance of robust data is not large compared to 6 of the conventional standard 8-VSB, the performance may be less improved than the P-2VSB method in an Additive White Gaussian Noise (AWGN) channel environment.

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